Thruput
Seatronx is proud to be an Americas distributor for Thruput. Thruput products compliment Seatronx rugged electronics with specialty applications in Air Traffic Operations and systems integration.
Thruput is dedicated to the creation of unique, and innovative, high-end graphics processing solutions. Thruput systems are selected worldwide for their reliability, integrity and performance.
Markets
Air Traffic Operations
- Displays
- Recording
- Video, Radar and Clutter processing
- Console management
Graphical development
- High resolution monitors.
- Video integration and processing.
- Graphics acceleration, conversion, rotation and combination.
Systems Integration
- High speed, pixel by pixel video integration and control
- Alpha blending KVM switches.
- True network based KVM extension for high resolution systems.
- Any video anywhere at any size and zoom.
Operational Support
- Sony DDM: International support for the Sony DDM, offering complete refurbished units, spares and repairs.
- Form Fit and Function replacements for Legacy peripheral devices.
- Pixel Repair System.
Latest blogs and articles.
Check out some of the recent blogs from the experts at Seatronx
How Do Bridge Cameras Improve Situational Awareness?
A radar return tells you something is out there. The ECDIS chart tells you where you are. Neither tells you what is actually happening on your own deck, at the bow at night, or near the waterline as you ease
Bridge Modernization Is Not Just a Cosmetic Upgrade
Bridge modernization is more than a cosmetic refresh. Modern vessel bridges need integrated systems, reliable marine hardware, and clear information flow.
What Goes Into a Modern Integrated Bridge System?
Ask a captain what an integrated bridge system is, and you will hear a mix of marketing language and personal history. Ask a class surveyor and you will get a fairly precise answer rooted in IMO and IEC standards. The
What’s the Difference Between NEMA 4X and IP67?
Two cut sheets land on your desk. One marine display lists NEMA 4X. The other lists IP67. The boat is the same, the helm position is the same, and the boss wants to know which one to spec. The honest
When Is a Marine Panel PC Better Than a Display + PC?
On a working bridge, every wasted inch of console space and every extra cable matters. When a captain or systems integrator sits down to spec the next round of bridge electronics, the question almost always lands on the same fork
What Makes a Display ECDIS-Compliant?
If you are speccing hardware for a SOLAS-class bridge, the words “ECDIS-ready,” “ECDIS-compliant,” and “type-approved” get used almost interchangeably in product copy. They are not the same thing, and the wrong choice can fail a flag state inspection, force a
Why Use an Industrial Trackball on a Vessel Bridge?
Most ship operators now run radar, ECDIS, engine telemetry, and CCTV through commercial PC stacks on the bridge. The screens get talked about constantly. The input device sitting between the watchkeeper and that stack rarely does, and it is the
What Should You Look For in a Marine Monitor?
The boat is moving. Spray hits the helm, the sun is dead behind the antenna mast, and the captain is squinting at a depth contour on a screen that was specified out of a desktop catalog. Two seasons later the
Why Marine Computers Outlast Office PCs on the Bridge
A marine computer is a fanless, conformally coated, IP-rated PC built to survive saltwater spray, condensation, vibration, brownouts, and 24/7 thermal cycling on a vessel bridge – the conditions that quietly destroy office-grade machines inside a single season. For a
Marine Traffic Map Outages: What to Watch on the Bridge
A marine traffic map is a web-based AIS aggregator that visualizes vessel positions reported by automatic identification system transponders, and when that map goes dark, blanks vessels, or shows ghost ships from spoofing, the bridge cannot fall back on it
How Marine Display Monitors Handle Harsh Conditions
A marine display monitor is a ruggedized screen engineered to deliver reliable visual output in environments where consumer electronics consistently fail – salt spray, constant vibration, extreme temperatures, and direct sunlight. These monitors serve as the visual backbone of vessel
How Autonomous Maritime Systems Are Reshaping Naval Operations
The Royal Australian Navy established its Maritime Autonomous Systems Unit (MASU) to accelerate uncrewed maritime technology integration, signaling a global shift toward autonomous naval platforms that demand purpose-built rugged electronics.
The Risk of Touchscreen-Only Navigation and What You Should be Using Instead
Marine navigation systems have come a long way, especially as larger displays and touchscreen interfaces have become more common across vessel bridges. At first glance, it might seem like touchscreens could replace everything else, but once you step into actual
Why Sunlight Readable Displays Matter at Sea
Learn why sunlight readable displays are essential for marine operations and what specifications matter most when choosing helm electronics.
Marine Electronics for Superyacht Operations
Superyacht charter operations demand rugged marine electronics built for harsh offshore conditions. This post covers the helm displays, computers, and camera systems that purpose-built marine hardware provides – and why consumer-grade alternatives fall short at sea.
The Operational Cost of Non-Rugged Hardware
In defense, maritime, and industrial environments, a hardware failure rarely affects just one component. When a navigation display goes dark or a unit stops responding, the impact of this can spread quickly. Operators may temporarily lose access to critical data
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